sanchayanmaity/gem5
1
0
Fork 0
Code Issues Pull requests Packages Projects Releases Wiki Activity

still working on getting past initialization

Browse source 
--HG--
extra : convert_revision : 7a5fccb9a19d363e479ef24012a7b8598272eaa9
This commit is contained in:
Ali Saidi 2006-10-20 13:00:05 -04:00
parent 0e2561710b
commit 32384b2f6b
4 changed files with 387 additions and 11 deletions
Show stats Download patch file Download diff file Expand all files Collapse all files

154
src/dev/i8254xGBe.cc
View file

@ -30,6 +30,9 @@
/* @file
* Device model for Intel's 8254x line of gigabit ethernet controllers.
* In particular an 82547 revision 2 (82547GI) MAC because it seems to have the
* fewest workarounds in the driver. It will probably work with most of the
* other MACs with slight modifications.
*/
#include "base/inet.hh"
@ -39,10 +42,38 @@
#include "sim/stats.hh"
#include "sim/system.hh"
using namespace iGbReg;
IGbE::IGbE(Params *p)
: PciDev(p), etherInt(NULL)
{
// Initialized internal registers per Intel documentation
regs.tctl.reg = 0;
regs.rctl.reg = 0;
regs.ctrl.reg = 0;
regs.ctrl.fd = 1;
regs.ctrl.lrst = 1;
regs.ctrl.speed = 2;
regs.ctrl.frcspd = 1;
regs.sts.reg = 0;
regs.eecd.reg = 0;
regs.eecd.fwe = 1;
regs.eecd.ee_type = 1;
regs.eerd.reg = 0;
regs.icd.reg = 0;
regs.imc.reg = 0;
regs.rctl.reg = 0;
regs.tctl.reg = 0;
regs.manc.reg = 0;
eeOpBits = 0;
eeAddrBits = 0;
eeDataBits = 0;
eeOpcode = 0;
memset(&flash, 0, EEPROM_SIZE);
// Magic happy checksum value
flash[0] = 0xBABA;
}
@ -74,15 +105,49 @@ IGbE::read(Packet *pkt)
// Only Memory register BAR is allowed
assert(bar == 0);
DPRINTF(Ethernet, "Accessed devie register %#X\n", daddr);
// Only 32bit accesses allowed
assert(pkt->getSize() == 4);
DPRINTF(Ethernet, "Read device register %#X\n", daddr);
pkt->allocate();
///
/// Handle read of register here
///
switch (daddr) {
case CTRL:
pkt->set<uint32_t>(regs.ctrl.reg);
break;
case STATUS:
pkt->set<uint32_t>(regs.sts.reg);
break;
case EECD:
pkt->set<uint32_t>(regs.eecd.reg);
break;
case EERD:
pkt->set<uint32_t>(regs.eerd.reg);
break;
case ICR:
pkt->set<uint32_t>(regs.icd.reg);
break;
case IMC:
pkt->set<uint32_t>(regs.imc.reg);
break;
case RCTL:
pkt->set<uint32_t>(regs.rctl.reg);
break;
case TCTL:
pkt->set<uint32_t>(regs.tctl.reg);
break;
case MANC:
pkt->set<uint32_t>(regs.manc.reg);
break;
default:
panic("Read request to unknown register number: %#x\n", daddr);
};
pkt->result = Packet::Success;
return pioDelay;
}
@ -93,17 +158,100 @@ IGbE::write(Packet *pkt)
int bar;
Addr daddr;
if (!getBAR(pkt->getAddr(), bar, daddr))
panic("Invalid PCI memory access to unmapped memory.\n");
// Only Memory register BAR is allowed
assert(bar == 0);
DPRINTF(Ethernet, "Accessed devie register %#X\n", daddr);
// Only 32bit accesses allowed
assert(pkt->getSize() == sizeof(uint32_t));
DPRINTF(Ethernet, "Wrote device register %#X value %#X\n", daddr, pkt->get<uint32_t>());
///
/// Handle write of register here
///
uint32_t val = pkt->get<uint32_t>();
switch (daddr) {
case CTRL:
regs.ctrl.reg = val;
break;
case STATUS:
regs.sts.reg = val;
break;
case EECD:
int oldClk;
oldClk = regs.eecd.sk;
regs.eecd.reg = val;
// See if this is a eeprom access and emulate accordingly
if (!oldClk && regs.eecd.sk) {
if (eeOpBits < 8) {
eeOpcode = eeOpcode << 1 | regs.eecd.din;
eeOpBits++;
} else if (eeAddrBits < 8 && eeOpcode == EEPROM_READ_OPCODE_SPI) {
eeAddr = eeAddr << 1 | regs.eecd.din;
eeAddrBits++;
} else if (eeDataBits < 16 && eeOpcode == EEPROM_READ_OPCODE_SPI) {
assert(eeAddr < EEPROM_SIZE);
DPRINTF(Ethernet, "EEPROM bit read: %d word: %#X\n",
flash[eeAddr] >> eeDataBits & 0x1, flash[eeAddr]);
regs.eecd.dout = (flash[eeAddr] >> eeDataBits) & 0x1;
eeDataBits++;
} else if (eeDataBits < 8 && eeOpcode == EEPROM_RDSR_OPCODE_SPI) {
regs.eecd.dout = 0;
eeDataBits++;
} else
panic("What's going on with eeprom interface? opcode:"
" %#x:%d addr: %#x:%d, data: %d\n", (uint32_t)eeOpcode,
(uint32_t)eeOpBits, (uint32_t)eeAddr,
(uint32_t)eeAddrBits, (uint32_t)eeDataBits);
// Reset everything for the next command
if ((eeDataBits == 16 && eeOpcode == EEPROM_READ_OPCODE_SPI) ||
(eeDataBits == 8 && eeOpcode == EEPROM_RDSR_OPCODE_SPI)) {
eeOpBits = 0;
eeAddrBits = 0;
eeDataBits = 0;
eeOpcode = 0;
eeAddr = 0;
}
DPRINTF(Ethernet, "EEPROM: opcode: %#X:%d\n",
(uint32_t)eeOpcode, (uint32_t) eeOpBits);
if (eeOpBits == 8 && !(eeOpcode == EEPROM_READ_OPCODE_SPI ||
eeOpcode == EEPROM_RDSR_OPCODE_SPI ))
panic("Unknown eeprom opcode: %#X:%d\n", (uint32_t)eeOpcode,
(uint32_t)eeOpBits);
}
// If driver requests eeprom access, immediately give it to it
regs.eecd.ee_gnt = regs.eecd.ee_req;
break;
case EERD:
regs.eerd.reg = val;
break;
case ICR:
regs.icd.reg = val;
break;
case IMC:
regs.imc.reg = val;
break;
case RCTL:
regs.rctl.reg = val;
break;
case TCTL:
regs.tctl.reg = val;
break;
case MANC:
regs.manc.reg = val;
break;
default:
panic("Write request to unknown register number: %#x\n", daddr);
};
pkt->result = Packet::Success;
return pioDelay;

7
src/dev/i8254xGBe.hh
View file

@ -39,6 +39,7 @@
#include "base/statistics.hh"
#include "dev/etherint.hh"
#include "dev/etherpkt.hh"
#include "dev/i8254xGBe_defs.hh"
#include "dev/pcidev.hh"
#include "dev/pktfifo.hh"
#include "sim/eventq.hh"
@ -49,6 +50,12 @@ class IGbE : public PciDev
{
private:
IGbEInt *etherInt;
iGbReg::Regs regs;
int eeOpBits, eeAddrBits, eeDataBits;
uint8_t eeOpcode, eeAddr;
uint16_t flash[iGbReg::EEPROM_SIZE];
public:
struct Params : public PciDev::Params

235
src/dev/i8254xGBe_defs.hh
View file

@ -34,17 +34,18 @@
namespace iGbReg {
const uint32_t CTRL = 0x00000;
const uint32_t STATUS = 0x00008;
const uint32_t EECD = 0x00010;
const uint32_t CTRL = 0x00000; //*
const uint32_t STATUS = 0x00008; //*
const uint32_t EECD = 0x00010; //*
const uint32_t EERD = 0x00014; //*
const uint32_t CTRL_EXT = 0x00018;
const uint32_t PBA = 0x01000;
const uint32_t ICR = 0x000C0;
const uint32_t ICR = 0x000C0; //*
const uint32_t ITR = 0x000C4;
const uint32_t ICS = 0x000C8;
const uint32_t IMS = 0x000D0;
const uint32_t IMC = 0x000D8;
const uint32_t RCTL = 0x00100;
const uint32_t IMC = 0x000D8; //*
const uint32_t RCTL = 0x00100; //*
const uint32_t RDBAL = 0x02800;
const uint32_t RDBAH = 0x02804;
const uint32_t RDLEN = 0x02808;
@ -53,7 +54,7 @@ const uint32_t RDT = 0x02818;
const uint32_t RDTR = 0x02820;
const uint32_t RADV = 0x0282C;
const uint32_t RSRPD = 0x02C00;
const uint32_t TCTL = 0x00400;
const uint32_t TCTL = 0x00400; //*
const uint32_t TDBAL = 0x03800;
const uint32_t TDBAH = 0x03804;
const uint32_t TDLEN = 0x03808;
@ -66,6 +67,11 @@ const uint32_t TADV = 0x0282C;
const uint32_t TSPMT = 0x03830;
const uint32_t RXDCTL = 0x02828;
const uint32_t RXCSUM = 0x05000;
const uint32_t MANC = 0x05820;//*
const uint8_t EEPROM_READ_OPCODE_SPI = 0x03;
const uint8_t EEPROM_RDSR_OPCODE_SPI = 0x05;
const uint8_t EEPROM_SIZE = 64;
struct RxDesc {
Addr buf;
@ -239,4 +245,219 @@ union TxDesc {
} type;
};
struct Regs {
union { // 0x0000 CTRL Register
uint32_t reg;
struct {
uint8_t fd:1; // full duplex
uint8_t bem:1; // big endian mode
uint8_t pcipr:1; // PCI priority
uint8_t lrst:1; // link reset
uint8_t tme:1; // test mode enable
uint8_t asde:1; // Auto-speed detection
uint8_t slu:1; // Set link up
uint8_t ilos:1; // invert los-of-signal
uint8_t speed:2; // speed selection bits
uint8_t be32:1; // big endian mode 32
uint8_t frcspd:1; // force speed
uint8_t frcdpx:1; // force duplex
uint8_t duden:1; // dock/undock enable
uint8_t dudpol:1; // dock/undock polarity
uint8_t fphyrst:1; // force phy reset
uint8_t extlen:1; // external link status enable
uint8_t rsvd:1; // reserved
uint8_t sdp0d:1; // software controlled pin data
uint8_t sdp1d:1; // software controlled pin data
uint8_t sdp2d:1; // software controlled pin data
uint8_t sdp3d:1; // software controlled pin data
uint8_t sdp0i:1; // software controlled pin dir
uint8_t sdp1i:1; // software controlled pin dir
uint8_t sdp2i:1; // software controlled pin dir
uint8_t sdp3i:1; // software controlled pin dir
uint8_t rst:1; // reset
uint8_t rfce:1; // receive flow control enable
uint8_t tfce:1; // transmit flow control enable
uint8_t rte:1; // routing tag enable
uint8_t vme:1; // vlan enable
uint8_t phyrst:1; // phy reset
} ;
} ctrl;
union { // 0x0008 STATUS
uint32_t reg;
struct {
uint8_t fd:1; // full duplex
uint8_t lu:1; // link up
uint8_t func:2; // function id
uint8_t txoff:1; // transmission paused
uint8_t tbimode:1; // tbi mode
uint8_t speed:2; // link speed
uint8_t asdv:2; // auto speed detection value
uint8_t mtxckok:1; // mtx clock running ok
uint8_t pci66:1; // In 66Mhz pci slot
uint8_t bus64:1; // in 64 bit slot
uint8_t pcix:1; // Pci mode
uint8_t pcixspd:1; // pci x speed
uint8_t reserved; // reserved
} ;
} sts;
union { // 0x0010 EECD
uint32_t reg;
struct {
uint8_t sk:1; // clack input to the eeprom
uint8_t cs:1; // chip select to eeprom
uint8_t din:1; // data input to eeprom
uint8_t dout:1; // data output bit
uint8_t fwe:2; // flash write enable
uint8_t ee_req:1; // request eeprom access
uint8_t ee_gnt:1; // grant eeprom access
uint8_t ee_pres:1; // eeprom present
uint8_t ee_size:1; // eeprom size
uint8_t ee_sz1:1; // eeprom size
uint8_t rsvd:2; // reserved
uint8_t ee_type:1; // type of eeprom
} ;
} eecd;
union { // 0x0014 EERD
uint32_t reg;
struct {
uint8_t start:1; // start read
uint8_t done:1; // done read
uint16_t addr:14; // address
uint16_t data; // data
};
} eerd;
union { // 0x00C0 ICR
uint32_t reg;
struct {
uint8_t txdw:1; // tx descr witten back
uint8_t txqe:1; // tx queue empty
uint8_t lsc:1; // link status change
uint8_t rxseq:1; // rcv sequence error
uint8_t rxdmt0:1; // rcv descriptor min thresh
uint8_t rsvd1:1; // reserved
uint8_t rxo:1; // receive overrunn
uint8_t rxt0:1; // receiver timer interrupt
uint8_t rsvd2:1; // reserved
uint8_t mdac:1; // mdi/o access complete
uint8_t rxcfg:1; // recv /c/ ordered sets
uint8_t rsvd3:1; // reserved
uint8_t phyint:1; // phy interrupt
uint8_t gpi1:1; // gpi int 1
uint8_t gpi2:1; // gpi int 2
uint8_t txdlow:1; // transmit desc low thresh
uint8_t srpd:1; // small receive packet detected
uint16_t rsvd4:15; // reserved
} ;
} icd;
union { // 0x00C0 IMC
uint32_t reg;
struct {
uint8_t txdw:1; // tx descr witten back
uint8_t txqe:1; // tx queue empty
uint8_t lsc:1; // link status change
uint8_t rxseq:1; // rcv sequence error
uint8_t rxdmt0:1; // rcv descriptor min thresh
uint8_t rsvd1:1; // reserved
uint8_t rxo:1; // receive overrunn
uint8_t rxt0:1; // receiver timer interrupt
uint8_t rsvd2:1; // reserved
uint8_t mdac:1; // mdi/o access complete
uint8_t rxcfg:1; // recv /c/ ordered sets
uint8_t rsvd3:1; // reserved
uint8_t phyint:1; // phy interrupt
uint8_t gpi1:1; // gpi int 1
uint8_t gpi2:1; // gpi int 2
uint8_t txdlow:1; // transmit desc low thresh
uint8_t srpd:1; // small receive packet detected
uint16_t rsvd4:15; // reserved
} ;
} imc;
union { // 0x0100 RCTL
uint32_t reg;
struct {
uint8_t rst:1; // Reset
uint8_t en:1; // Enable
uint8_t sbp:1; // Store bad packets
uint8_t upe:1; // Unicast Promiscuous enabled
uint8_t mpe:1; // Multicast promiscuous enabled
uint8_t lpe:1; // long packet reception enabled
uint8_t lbm:2; //
uint8_t rdmts:2; //
uint8_t rsvd:2; //
uint8_t mo:2; //
uint8_t mdr:1; //
uint8_t bam:1; //
uint8_t bsize:2; //
uint8_t vpe:1; //
uint8_t cfien:1; //
uint8_t cfi:1; //
uint8_t rsvd2:1; //
uint8_t dpf:1; // discard pause frames
uint8_t pmcf:1; // pass mac control frames
uint8_t rsvd3:1; // reserved
uint8_t bsex:1; // buffer size extension
uint8_t secrc:1; // strip ethernet crc from incoming packet
uint8_t rsvd1:5; // reserved
} ;
} rctl;
union { // 0x0400 TCTL
uint32_t reg;
struct {
uint8_t rst:1; // Reset
uint8_t en:1; // Enable
uint8_t bce:1; // busy check enable
uint8_t psp:1; // pad short packets
uint8_t ct:8; // collision threshold
uint16_t cold:10; // collision distance
uint8_t swxoff:1; // software xoff transmission
uint8_t pbe:1; // packet burst enable
uint8_t rtlc:1; // retransmit late collisions
uint8_t nrtu:1; // on underrun no TX
uint8_t mulr:1; // multiple request
uint8_t rsvd:5; // reserved
} ;
} tctl;
union { // 0x5820 MANC
uint32_t reg;
struct {
uint8_t smbus:1; // SMBus enabled #####
uint8_t asf:1; // ASF enabled #####
uint8_t ronforce:1; // reset of force
uint8_t rsvd:5; // reserved
uint8_t rmcp1:1; // rcmp1 filtering
uint8_t rmcp2:1; // rcmp2 filtering
uint8_t ipv4:1; // enable ipv4
uint8_t ipv6:1; // enable ipv6
uint8_t snap:1; // accept snap
uint8_t arp:1; // filter arp #####
uint8_t neighbor:1; // neighbor discovery
uint8_t arp_resp:1; // arp response
uint8_t tcorst:1; // tco reset happened
uint8_t rcvtco:1; // receive tco enabled ######
uint8_t blkphyrst:1;// block phy resets ########
uint8_t rcvall:1; // receive all
uint8_t macaddrfltr:1; // mac address filtering ######
uint8_t mng2host:1; // mng2 host packets #######
uint8_t ipaddrfltr:1; // ip address filtering
uint8_t xsumfilter:1; // checksum filtering
uint8_t brfilter:1; // broadcast filtering
uint8_t smbreq:1; // smb request
uint8_t smbgnt:1; // smb grant
uint8_t smbclkin:1; // smbclkin
uint8_t smbdatain:1; // smbdatain
uint8_t smbdataout:1; // smb data out
uint8_t smbclkout:1; // smb clock out
uint8_t rsvd2:2;
};
} manc;
};
}; // iGbReg namespace

2
src/python/m5/objects/Ethernet.py
View file

@ -71,7 +71,7 @@ class IGbE(PciDevice):
class IGbEPciData(PciConfigData):
VendorID = 0x8086
DeviceID = 0x1026
DeviceID = 0x1075
SubsystemID = 0x1008
SubsystemVendorID = 0x8086
Status = 0x0000